RU2222501C1 - Method of treatment of biogas during storage and device for realization of this method - Google Patents

Abstract

FIELD: agricultural equipment; cattle-breeding and poultry complexes; production of biogas from manure, dung and wastes of plant growing complexes. SUBSTANCE: wet gas holder of varying capacity makes it possible to use fermented and heated mass as water seal. Biogas is cleaned by passing it through fermented mass in gas holder reservoir by fine jets saturating it by carbon dioxide, thus enhancing fertilizing properties of manure, dung and plant wastes fermented in methane tank. Branch pipe supplying biogas is detachable and sectional in construction and is adjustable in height giving access for repair and maintenance jobs without dismantling gas holder bell and without draining liquid from reservoir. EFFECT: enhanced efficiency. 4 cl, 1 dwg

Description

 The invention relates to the field of sewage and is primarily intended for use in agriculture on livestock and poultry complexes, factories and farms, in which combustible biogas and high-quality organic disinfected from pathogenic microflora, helminths, their eggs and weed seeds are produced from manure, litter and plant waste fertilizers.

There is a method of partial processing of biogas by condensing water vapor from it during storage and a device for its implementation, implemented in a typical wet gas tank of variable capacity with a tank filled with water, acting as a water shutter. To prevent freezing of water in the tank of the gas tank in winter and maintaining the water temperature of at least +5 ^o C, it is heated using steam-jet elevators at a flow rate of 70-120 kcal per cubic meter of water per hour / Typical projects of wet gas holders of various capacities 707-2- 18-24c-86, developed by the GIAP, Approved and enforced by the Ministry of Fertilizers, Protocol 25-111 of September 10, 1985 /.

 A disadvantage of the known method for partial processing of biogas during storage in a typical wet gas tank of variable capacity is that the treatment of wet biogas coming from a digester and containing biogas and carbon dioxide is limited mainly by moisture condensation mainly in winter, while it is necessary to heat the water in the tank in winter spend a significant amount of thermal energy.

 There is also another method for processing biogas during storage and a device for its implementation / Patent application UK 2190682, class. C 02 F 11/04 /. The essence of this known method consists in the fact that biogas containing hydrogen sulfide and carbon dioxide anaerobically fermented in a digester from organic waste is irrigated in a continuous stream under a bell with fine-grained and intense shower water from a tank, a gas tank, while in another embodiment, biogas containing hydrogen sulfide and carbon dioxide dispersed with fine particles injected into continuously changing and running water, used as a shut-off liquid in a tank of a wet gas tank of variable capacity stored under a bell gas and cleaned from hydrogen sulfide and carbon dioxide in a continuously flowing water in the tank gasholder biogas output from a gasholder bell.

 A device for implementing the above known method of processing biogas during storage is a wet gas tank of variable capacity with a constantly filled tank filled with water as a shutter of a bell raised by the pressure of stored biogas, while the supply of hydrogen sulfide and carbon dioxide biogas from methane tank to be cleaned in running water in the form of sections of perforated pipes immersed in water to a predetermined depth of back pressure of the introduced biogas. Another embodiment of the device provides that biogas from a digester is introduced into the space under the bell through a separate pipe in a continuous stream, and then irrigated in the space under the bell with the sprinkler installed there above the surface of the tank water, pumping this water repeatedly into the sprinkler. To remove biogas purified from hydrogen sulfide and carbon dioxide from the gas space under the bell of the gas holder, a gas exhaust pipe is made, the intake part of which is installed above the water level in the tank.

 The disadvantage of this method of processing biogas according to patent application UK 2190682 is the significant consumption of continuously changing running water in the tank due to its saturation with hydrogen sulfide and carbon dioxide, as well as the need for heating water in winter to prevent freezing.

 A disadvantage of the known device for implementing the above method is that it completely eliminates any routine inspection of the condition of the nozzles with perforations and sprinklers, eliminates the possibility of regulating the installation depth of the perforated nozzles without removing the bell of the gas tank and without draining the water from the tank.

 However, in terms of their technical nature and the achieved result, the method for processing biogas during storage and the device for its implementation that are known in the UK patent application 2190682 are closest to the invention.

 The present invention is the creation of such a method of processing biogas during storage and a device for its implementation, which would eliminate the above disadvantages of the method and device for its implementation according to patent application UK 2190682, but would also reduce energy costs for cleaning biogas, would allow access for repair and maintenance of perforated and fine bubble pipes leading under the bell of a wet gas tank without removing the bell of a gas tank and without draining the liquid from its tank .

 The objective of the present invention is also to increase the fertilizer quality of manure, manure and vegetable waste anaerobically fermented in a digester, used by this invention as a flowing shut-off liquid of a wet gas tank for cleaning biogas mainly from carbon dioxide absorbed by the digestion mass.

 According to the invention, the task in the implementation of the method is achieved by the fact that as a shut-off liquid flowing in the wet gas tank, the fermented mass discharged from the digester is fed from the digester and is introduced continuously into the wet reservoir of the wet gas tank and not only continuously according to the prototype . The frequency of introducing into the tank a wet gas tank of the heated mass fermented in the digester is set in accordance with the frequency of unloading of the fermented mass from the digester.

 The objective is achieved according to the invention and the implementation of the device for implementing the method in which the biogas supply pipe for cleaning with a perforated tube immersed in the liquid instead of the stationary fixed in the prototype is made detachable, consisting of the outlet pipe of the tank of the gas holder of the supply pipe, which is above a removable perforated tube immersed in liquid is installed in the form of a ring connected to a head mounted on a biogas supply pipe, t when the removable hatch with a diameter larger than the diameter of the perforated ring immersed in the liquid was made in the gas tank bell, and the installation of the removable head with the perforated ring on the biogas supply pipe from the digester to the gas tank was made, with the hatch in the gas tank open, it was possible to adjust the height of the perforated ring relative to the level of the locking fluid in the tank of the gas tank, for example, in the form of a screw pairing of the head with the upper part of the biogas supply pipe to the gas tank of the digester.

 The drawings schematically show a device of a wet gas tank of variable capacity, which provides a method for processing biogas during storage, in which Fig. 1 shows a sectional perspective view of a liquid-filled wet gas tank and, in Fig. 2, a view along BB in Fig. 1.

The proposed device in the form of a wet gas tank of variable capacity (Fig. 1 and 2) contains a tank 1 acting as a liquid shutter, filled continuously or periodically with flowing fermented and heated in a digester tank mass, into which a bell 2 with a hatch 3 and its lid 4 is inserted. In the tank 1 there are nozzles for feeding into it a mass 5 fermented in a digester and withdrawing it from the tank 1 after saturation with absorbed gas components 6. A pipe 7 is installed for supplying biogas from the digester in the tank 1, and for removing the cleaned biogas - pipe 8. Both pipes 7 and 8 in their upper part are led slightly higher than the liquid level in the tank 1, which eliminates the filling of liquid in them, to completely empty the tank 1 from the fermented mass, the tank 1 has a pipe 9 with a valve 10. On the supply pipe biogas 7 is installed with the possibility of fixing it at different heights of the head 11, to which by means of pipes 12 a perforated ring 13 with perforated pipes 14 is attached from below, which ensures an increase in the perforated surface. The diameter of the perforated ring 13 / D ¹ / is smaller than the diameter of the hatch 3 / D /, which ensures that when the head 11 is removed with the cover 4 open from the biogas supply pipe 7, the perforated ring 13 is lifted when bell 2 is lowered after biogas is removed from the space under it through the nozzle with a tap 15. To prevent significant heat loss and to prevent freezing of the fermented mass in the tank 1, its outer surface is insulated from the condition that the temperature of the fermented mass in the tank 1 is not allowed to be less than +5 ^o С / thermal insulation on black tags not shown.

 The proposed method of processing biogas during storage is performed in the device for its implementation / 1 and 2 / as follows.

 When the bell 2 is lowered into it and the hatch 3 is lowered into it, the ring 13 with the tip 11 is inserted and the tip 11 is fixed on the upper part of the biogas supply pipe 7. Next, through the pipe 5, the heated and fermented mass from the digester is poured into the tank 1 to the full volume reservoir 1, i.e. to the level of pipe 6 / in the absence of the proper amount of fermented mass, it can be supplemented or replaced with water /. When the tank 1 is completely filled with liquid, the depth of the location of the ring 13 is adjusted relative to the level of the full gulf of the liquid mass, taking into account the fact that in the working state the liquid level in the bell-ring space will decrease by “B” - equal to the pressure of the biogas water column under bell 2, which typical wet gas tanks use up to 400 mm. The working depth of the location of the ring 13 relative to the working level of the liquid mass "A", determined in mm and equal to the pressure of the biogas coming out of the digester in mm of water, must also be taken into account. The sum of the sizes "A" and "B" is the desired size of the installation depth of the ring 13 relative to the level of the full gulf of the liquid mass in the tank 1, which allows then to fix the position of the head 11 on the upper part of the biogas supply pipe 7 tightly. After that, the hatch 3 is closed with a lid 4, the crane 15 is partially opened and biogas is introduced into the perforated ring 13 through the pipe 7, while closing the valve on the outlet pipe of the purified biogas 8. The biogas leaving the perforated ring 13 will float in small masses in a liquid, being cleaned when this from hydrogen sulfide and carbon dioxide, and enter cleaned from them into the dome space, displacing from it through the pipe with a tap 15 the air in us. The opening of the crane 15 should be such that its throughput is less than the biogas from the ring 13, while this can be detected by visually observing the rise of the bell 2. After raising the bell 2 to 2/3 of its full height, the valve 15 closes and the valve opens pipe 8, and outside the gas tank, a biogas sample is taken for analysis of its composition and quality of purification in comparison with the composition and quality of biogas coming from the digester for purification to the gas tank. At the same time, samples are taken for analysis of the heated fermented mass coming from the digester and the same mass flowing out of tank 1 from pipe 6.

 After performing the basic steps for putting into operation the device of a wet gas tank proposed by the invention using anaerobically fermented and heated in a digester mass as a shut-off liquid in the tank 1 of a wet gas tank, its subsequent operation should be carried out in accordance with the guidelines for the safe operation of wet gas tanks intended for combustibles gases.

The components of the positive effect of the use of the proposed method and device for its implementation are:
- refusal to use constantly running water and the need to heat it in the winter;
- the ability to monitor the performance of the main working units of a wet gas tank, to ensure their inspection, cleaning and adjustment without removing the bell and without draining the liquid from the tank;
- improving the fertilizer quality of manure, manure and vegetable waste anaerobically digested in the digesters due to saturation of the mass used in the digesters and heated in it as a liquid shutter of the bell of the gas tank and as a gas cleaning liquid - carbon dioxide absorbed in the tank of the gas tank flowing through the tank of the tank mass. So, for example, during anaerobic digestion in a digester one ton of chicken manure with a moisture content of 70%, diluting it to a pulp with a moisture content of 92%, 85.5 nm ³ / 93.1 kg / biogas with a content of 65% CH ₄ / 55.5 nm are produced ³ = 99.1 kg / almost 35% CO ^_2/3 = 29.9 nm 59.2 kg / calorie 23286 kJ / nm ^3/5562 kcal / nm ³ /. At the same time, 3535 kg of fermented mass with a temperature of 20 ^o С / fermentation in a mesophilic mode at 36 ^o С using heat exchange between the fermented mass and fresh pulp loaded in a digester with a temperature of 8-10 ^o С / enters from the digester to the biogas purifier. When the biogas obtained in the digester passes through the dropping mass cooling in the gas tank, it absorbs 21.4 nm ³ / 42.32 kg / СО _{2 from it} , while reducing the amount of biogas received from the digester from 85.5 nm ³ to 64.1 nm ³ with an increase in caloric content from CO _{2 of} purified biogas to 31048 kJ / nm ³ / 7415.7 kcal / nm ³ / or by 33.3%, while the weight of the fermented mass increases by only 1.2%. An insignificant content of hydrogen sulfide biogas (0.01-0.03%) produced in the digester is almost completely absorbed by the fermented biogas cleaning mixture and its composition practically does not change.

 The components of the positive effect from the use of the proposed method and device for its implementation are specified for each specific case of anaerobic digestion of the composition and amount of organic waste, the dose of their loading in the digester, the temporary and temperature conditions of the fermentation, the climatic regime of the area of use and compliance with the instructions for linking the project.

Claims (4)

1. A method of processing biogas during storage, comprising input from anaerobically digested organic digesters from organic waste into small, variable jet streams of biogas into a flow-changing shut-off liquid of a wet gas tank of variable capacity with a variable volume of stored biogas space and withdrawal of wet from the gas space from under the bell gas tank purified in a flow-changing locking fluid from hydrogen sulfide and carbon dioxide introduced into it from a biogas digester, characterized in that as rotochno replaceable in-tank gas tank shutoff wet liquid is discharged from the digester, the digester heated in fermented mass, which is introduced into the wet tank fluidly gasholder continuously or intermittently. 2. The method according to claim 1, characterized in that the frequency of introduction into the reservoir of a wet gas tank of the heated mass fermented in the digester is set in accordance with the frequency of unloading of the fermented mass from the digester. 3. A device for implementing a method for processing biogas during storage, containing a wet gas tank of variable capacity with a bell lifting in the liquid and with a tank equipped with nozzles for filling it with flowing liquid, used as a shutter with a lifting and lowering bell, biogas supply pipes for cleaning with immersed into the liquid by the sections of perforated pipes and the outlet pipe of the purified biogas from the space under the bell above the liquid level in the wet gas tank reservoir, characterized in that the biogas supply nozzle for cleaning with a perforated tube immersed in the liquid is made detachable, consisting of the outlet pipe of the gas tank reservoir leaving the level of the shutoff liquid, on which a removable immersed perforated pipe is installed in the form of a ring connected to the head installed on the biogas supply a pipe, while a removable hatch with a diameter larger than the diameter of the perforated ring immersed in the liquid is made in the bell of the gas tank. 4. The device according to claim 3, characterized in that the removable head with a perforated ring on the biogas supply pipe from the digester to the gas tank is configured to control the height of the perforated ring relative to the level of the locking fluid in the gas tank, for example, in the form of a screw the upper part of the biogas supply pipe to the methanol tank.

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